Motor vehicle roof with a roof opening, a movable closing element to selectively close or at least partially clear the roof opening, a wind deflector in a front edge area of the roof opening and which is movable between lowered and fully raised positions, and a positioning device for setting intermediate positions of the wind deflector which has a holder which engages the wind deflector and a driven displacement mechanism for vertically displacing the wind deflector into the intermediate positions. The adjustment mechanism has a guide element which is driven by the drive into motion along the wind deflector with an inclined guideway along which an engagement element which is connected to the holder is movably guided. The engagement element is supported on a body-mounted carrier such that it can be moved with respect to the carrier only normal to the direction of motion of the guide element.
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1. Motor vehicle roof, comprising:
with a roof opening,
a closing element which is movable to selectively close and at least partially clear the roof opening,
a wind deflector located in an area of a front edge of the roof opening and which is movable between a lowered position and a fully raised position, and
a positioning device for setting intermediate positions of the wind deflector between the lowered and fully raised positions, the positioning device having a holder which engages the wind deflector and an displacement mechanism which is driven by a drive and by means of which the holder is vertically movable to dictate the intermediate positions of the wind deflector,
wherein that the displacement mechanism has a guide element which is driven by the drive in a direction of motion along the wind deflector,
wherein the guide element has an inclined guideway along which an engagement element which is connected to the bolder is movably guided, and
wherein the engagement element is supported on a body-mounted carrier for movement with respect to the carrier only in a direction normal to the direction of motion of the guide element.
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1. Field of Invention
This invention relates to a motor vehicle roof with a roof opening and a wind deflector, a closing element which can be displaced to selectively close or at least partially clear the roof opening, in which the wind deflector is located in the area of the front edge of the roof opening and can be moved between a lowered and a fully raised position, and a positioning device for setting intermediate positions of the wind deflector which has a holder which engages the wind deflector and an movement mechanism which is driven by a drive which displaces the holder to dictate the intermediate positions of the wind deflector.
2. Description of Related Art
Generic motor vehicle roofs are known in which the wind deflector is mounted to be able to pivot around a roof-mounted axle which runs in the transverse direction of the roof and is elastically pretensioned in the direction of the completely raised position, the wind deflector being lowered against the pretensioning force when the closing element or the cover is being closed by means of the cover drive, and the holder which engages the wind deflector acting as a hold-down in the intermediate positions.
This generic motor vehicle roof is described, for example, in published German Patent Application DE 199 58 742 A1 and corresponding U.S. Pat. No. 6,357,823, the positioning device being located in the area of the front edge of the roof opening and being provided with a lever mechanism which has two mirror-symmetrical positioning rockers, one end of which forms a stop for the wind deflector and the other end of which is coupled to a control lever which sits on the driven shaft of the actuator. The comparatively large installation space required is the disadvantage in this approach.
Published German Patent Application DE 101 42 047 A1 and corresponding U.S. Pat. No. 6,626,486 discloses a similar construction, the stop for the wind deflector being determined by a wire of a shape memory alloy. Published French Patent Application FR 2 810 592 A1 describes a motor vehicle roof in which the wind deflector position can be set via a sheathed cable which engages the wind deflector. Published German Patent Application DE 101 46 285 A1 discloses a motor vehicle roof in which the stop for the raising of the wind deflector takes place via lateral control levers which are actuated by the cover. A similar motor vehicle roof is also described in published German Patent Application DE 198 09 943 A1.
Published European Patent Application EP 0 931 683 A2 discloses a motor vehicle roof in which the movement of the wind deflector takes place via a wind deflector servomotor which drives a pinion which is connected to the wind deflector via a drive cable.
Published German Patent Application DE 197 01 479 A1 describes a motor vehicle roof in which the wind deflector is displaced via a lateral control cam which is driven by the servomotor to be able to move in the lengthwise direction of the roof and which is made as a guide band, for example, in the form of a vertically arranged toothed belt.
Published German Patent Application DE 197 14 492 A1 describes a motor vehicle roof in which the wind deflector can be pivoted around a pivot axis which runs on its front end in the transverse direction of the roof, a guide element which is provided with a inclined guide path being permanently connected to the wind deflector and a guide pin which is driven into displacement motion in the transverse direction of the roof being engaged in the guide path such that, during the displacement motion of the guide pin in the transverse direction of the roof, pivoting of the guide element and thus of the wind deflector takes place.
Published German Patent Application DE 102 10 617 A1 describes a motor vehicle roof in which the stop for the raising motion of the wind deflector can be adjusted by means of one end of a control lever which is made as a rocker and the other end of which is controlled via a separate motor by a guide slot which runs in the lengthwise direction of the roof.
Published German Patent Application DE 39 13 567 A1 describes a motor vehicle roof in which a wind deflector is provided in the area of its top edge with additional elements which are supported on the wind deflector such that, if necessary, they can be pushed up over the top edge of the wind deflector, this taking place by a respective guide pin which is driven by a drive in the transverse direction of the roof fitting into an inclined guide path on the respective additional element by sliding.
The aforementioned motor vehicle roofs have different disadvantages. In part they do not allow any actuation of the wind deflector independent of the cover and the positioning device of the wind deflector requires a large amount of installation space or does not ensure reliable control of the wind deflector or requires relatively many components.
A primary object of this invention is to devise a motor vehicle roof with a roof opening and a wind deflector, in which adjustment of intermediate positions of the wind deflector is as flexible as possible, the amount of installation space required and the number of required parts will be kept as small as possible and a durable structure will be achieved.
This object is achieved in accordance with the invention by the displacement mechanism having a guide element which is driven by the drive into motion along the wind deflector with a inclined guideway along which an engagement element which is connected to the holder is movably guided, the engagement element being supported on a body-mounted carrier such that it can be moved with respect to the carrier only normal to the direction of motion of the guide element, or by a kinematic reversal of this approach.
In the approach in accordance with the invention, it is advantageous that by means of the positioning device, the position of the wind deflector can be easily varied, especially depending on the driving speed and/or the degree of opening of the closing element, in order to achieve optimum reduction of wind noise and humming noise, and the positioning device can be made very compact with little demand for installation space and especially can be integrated in the front, transversely running part of the roof frame for the closing element. Furthermore, the number of additional parts which is necessary for the positioning device can be kept very small and the positioning device can be made very durable and thus reliable.
The invention is explained in detail below by way of example using the accompanying drawings.
The closing element C can be, for example, the cover of a sliding roof, sliding and lifting roof, externally guided sliding roof or spoiler roof or the louvers of a louvered roof.
The wind deflector 10 comprises a front wind deflector surface and two lateral arms 14 which are supported on their back end at 16 to be able to pivot around a fixed axis which runs in the transverse direction of the roof and is formed by an axle shown in broken lines in
The fully raised position of the wind deflector 10 is dictated by a fixed stop (not shown). However, generally, it is desirable under certain circumstances to set the wind deflector 10 also in intermediate positions between the lowered and the fully raised position. Thus, conventionally, humming noise occurs mainly in the lower speed range (for example, up to 100 km/h; 60 mph) so that, in this range, generally the fully raised position of the wind deflector 10 is desirable, while at higher speeds hardly any humming noise occurs so that it is not necessary in this speed range to fully raise the wind deflector.
To implement these intermediate positions, there is the positioning device which is described below and which has a servomotor 18 which, for example, can be made as a rotary motor which drives a spindle 20, which is movable in the transverse direction of the roof, and an element which is stiff in tension-compression, which runs in the manner of a rod in the transverse direction of the roof and which is driven by means of a coupling arrangement 24 by the spindle 20 into displacement motion in the transverse direction of the roof and is movably guided in the transverse direction of the roof on a guide rail 23 which is formed on the roof frame 12 and which is provided with a cover 25. The positioning device furthermore comprises a guide element 26 which forms part of an element 22 which is stiff in tension-compression or is permanently connected to it and has an inclined guide slot 28 into which an engagement element which is made as a guide pin or bolt 30 fits, see especially
Instead of being made as a rotary motor with a downstream arrangement for conversion of a rotary motion into a linear motion, the servomotor can also be made as a linear motor.
The manner of operation of the positioning device for the wind deflector 10 explained below. For example, if lowering of the wind deflector 10 is desired proceeding from the fully raised position with the closing element opened, for example, because a given speed threshold is exceeded, the servomotor is triggered accordingly into rotary motion which causes displacement of the spindle 20 in the transverse direction of the roof. In addition or alternatively, to produce a positioning which is dependent on the driving speed, the control of the servomotor 18 can take place, for example, also depending on the degree of opening of the closing element.
Via the coupling element 24, the displacement motion of the spindle 20 is converted into a corresponding displacement motion of the element 22 which is stiff in tension-compression in the transverse direction of the roof, the guide element 26 also being pushed accordingly in the transverse direction of the roof. As a result of the fitting of the guide pin 30 into the guide path 28 and the inclination of the guide path 28 (which is made in this example as a straight path with a uniform pitch) depending on the direction of rotation of the motor 18, lowering or raising of the guide pin 30 takes place, the latter moving up or down in the roof frame-mounted guide and guide path 32.
The flexible element 34 provides for a connection between the guide pin 30 and the hold-down 36 which is stiff in tension, but not in compression. When the guide pin 30, as a result of the displacement motion of the guide element 26, moves down in the roof frame-mounted guide path 32, accordingly, by means of the coupling formed by the flexible element 34 which is stiff in tension, the hold-down 36, and thus the wind deflector 10, is pulled down a corresponding distance in a manner overcoming the pre-tensioning of the spring of the wind deflector 10. In this way, the wind deflector 10 can be lowered from the fully raised position, selectively into intermediate positions, by means of the servomotor 18. However, it is not necessary for the wind deflector to be able to be moved into the fully lowered position by means of the servomotor 18 since this generally takes place anyway when the closing element is closed by actuation of the side arms 14 (in this case, flexibility of the connecting element 34 is necessary). The aforementioned fully raised position is shown in
As shown in
Preferably, the entire positioning device is located in the area of the front part of the roof frame 12 and is at least partially integrated into it. The roof frame acts as a body-mounted carrier for the positioning device.
The wind deflector 10, instead of the embodiment which is shown in
Furthermore, kinematic reversal of the positioning mechanism described previously is also possible, i e, where the engagement element as opposed to the guide element is driven along the wind deflector and the guide element as opposed to the engagement element is connected to the holder and moves vertically to raise and lower the wind deflector. Thus, such a case, then, the guide element (in the illustrated example, the guide element 26) would not be provided with a guide path, but would be made as an engagement element, especially as a guide pin, while the element which can be moved in the vertical direction of the roof (in this example, the guide pin 30) is provided with an inclined guide path or guideway with which the engagement element is movably engaged. This kinematic reversal of the positioning mechanism is shown in
It goes without saying that the guideway need not necessarily be made as a guide slot, but can also be made in some other way, for example, as a guide crosspiece, the engagement element accordingly not necessarily having to be made as a guide pin, for example, being made as a sliding block which extends around the guide crosspiece.
Furthermore, it is noted that the illustrated positioning mechanism could be used not only for lowering the wind deflector, but also for raising it. In this case, the connection between the engagement element and the hold-down would have to be made not only stiff in tension, but also stiff in compression. Then, the positioning mechanism could also be used fundamentally to reach the end positions of the wind deflector.
Karami, Jadi, Kiedl, Martin, Gallner, Christian
Patent | Priority | Assignee | Title |
10583725, | Sep 28 2018 | NISSAN MOTOR CO , LTD | Vehicle wind deflector assembly |
11685243, | Jun 10 2021 | INALFA ROOF SYSTEMS GROUP B V | Net wind deflector with folding anti buffeting flap |
Patent | Priority | Assignee | Title |
6357823, | Dec 07 1999 | Webasto Vehicle Systems International GmbH | Device for influencing an air flow |
6626486, | Aug 28 2001 | ROOF SYSTEMS GERMANY GMBH | Wind deflector including an operating element for a sliding roof system |
DE10137650, | |||
DE10146285, | |||
DE10210617, | |||
DE19701479, | |||
DE19714492, | |||
DE19809943, | |||
DE3913567, | |||
EP931683, | |||
FR2810592, | |||
JP403045427, |
Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
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Nov 22 2004 | KARAMI, JADI | Webasto AG | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 016126 | /0400 | |
Nov 22 2004 | KIEDL, MARTIN | Webasto AG | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 016126 | /0400 | |
Nov 22 2004 | GALLNER, CHRISTIAN | Webasto AG | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 016126 | /0400 |
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